One of the most common forms of cryptography today is public-key cryptography. Public-key cryptography utilizes a public key and a private key. The system works by encrypting information using the public key. The information can then only be decrypted using the private key.
A common use for public-key cryptography is encrypting application traffic using a Secure Socket Layer (SSL) or Transport Layer Security (TLS) connection. For example, configuring Apache to provide HTTPS, the HTTP protocol over SSL. This allows a way to encrypt traffic using a protocol that does not itself provide encryption.
A Certificate is a method used to distribute a public key and other information about a server and the organization who is responsible for it. Certificates can be digitally signed by a Certification Authority or CA. A CA is a trusted third party that has confirmed that the information contained in the certificate is accurate.
To set up a secure server using public-key cryptography, in most cases, you send your certificate request (including your public key), proof of your company's identity, and payment to a CA. The CA verifies the certificate request and your identity, and then sends back a certificate for your secure server. Alternatively, you can create your own self-signed certificate.
Note, that self-signed certificates should not be used in most production environments. |
Continuing the HTTPS example, a CA-signed certificate provides two important capabilities that a self-signed certificate does not:
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Browsers (usually) automatically recognize the certificate and allow a secure connection to be made without prompting the user.
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When a CA issues a signed certificate, it is guaranteeing the identity of the organization that is providing the web pages to the browser.
Most Web browsers, and computers, that support SSL have a list of CAs whose certificates they automatically accept. If a browser encounters a certificate whose authorizing CA is not in the list, the browser asks the user to either accept or decline the connection. Also, other applications may generate an error message when using a self-singed certificate.
The process of getting a certificate from a CA is fairly easy. A quick overview is as follows:
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Create a private and public encryption key pair.
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Create a certificate request based on the public key. The certificate request contains information about your server and the company hosting it.
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Send the certificate request, along with documents proving your identity, to a CA. We cannot tell you which certificate authority to choose. Your decision may be based on your past experiences, or on the experiences of your friends or colleagues, or purely on monetary factors.
Once you have decided upon a CA, you need to follow the instructions they provide on how to obtain a certificate from them.
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When the CA is satisfied that you are indeed who you claim to be, they send you a digital certificate.
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Install this certificate on your secure server, and configure the appropriate applications to use the certificate.
Whether you are getting a certificate from a CA or generating your own self-signed certificate, the first step is to generate a key.
To generate the keys for the Certificate Signing Request (CSR) run the following command from a terminal prompt:
openssl genrsa -des3 -out server.key 1024
Generating RSA private key, 1024 bit long modulus
.....................++++++
.................++++++
unable to write 'random state'
e is 65537 (0x10001)
Enter pass phrase for server.key:
You can now enter your passphrase. For best security, it should at least contain eight characters. The minimum length when specifying -des3 is four characters. It should include numbers and/or punctuation and not be a word in a dictionary. Also remember that your passphrase is case-sensitive.
Re-type the passphrase to verify. Once you have re-typed it
correctly, the server key is generated and stored in the
server.key
file.
You can also run your secure service without a passphrase. This is convenient because you will not need to enter the passphrase every time you start your secure service. But it is highly insecure and a compromise of the key means a compromise of the server as well. |
In any case, you can choose to run your secure service without a passphrase by leaving out the -des3 switch in the generation phase or by issuing the following command at a terminal prompt:
openssl rsa -in server.key -out server.key.insecure
Once you run the above command, the insecure key will be stored
in the server.key.insecure
file. You can use this
file to generate the CSR without passphrase.
To create the CSR, run the following command at a terminal prompt:
openssl req -new -key server.key -out server.csr
It will prompt you enter the passphrase. If you enter the
correct passphrase, it will prompt you to enter Company Name,
Once you enter all these details, your
CSR will be created and it will be stored in the
server.csr
file.
Site Name, Email Id, etc.
You can now submit this CSR file to a CA for processing. The CA will use this CSR file and issue the certificate. On the other hand, you can create self-signed certificate using this CSR.
To create the self-signed certificate, run the following command at a terminal prompt:
openssl x509 -req -days 365 -in server.csr -signkey server.key -out server.crt
The above command will prompt you to enter the
passphrase. Once you enter the correct passphrase, your
certificate will be created and it will be stored in the
server.crt
file.
If your secure server is to be used in a production environment, you probably need a CA-signed certificate. It is not recommended to use self-signed certificate. |
You can install the key file
server.key
and certificate file
server.crt
, or the certificate file issued
by your CA, by running following commands at a terminal prompt:
sudo cp server.crt /etc/ssl/certs
sudo cp server.key /etc/ssl/private
Now simply configure any applications, with the ability to use public-key cryptography, to use the certificate and key files. For example, Apache can provide HTTPS, Dovecot can provide IMAPS and POP3S, etc.
If the services on your network require more than a few self-signed certificates it may be worth the additional effort to setup your own internal Certification Authority (CA). Using certificates signed by your own CA, allows the various services using the certificates to easily trust other services using certificates issued from the same CA.
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First, create the directories to hold the CA certificate and related files:
sudo mkdir /etc/ssl/CA sudo mkdir /etc/ssl/newcerts
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The CA needs a few additional files to operate, one to keep track of the last serial number used by the CA, each certificate must have a unique serial number, and another file to record which certificates have been issued:
sudo sh -c "echo '01' > /etc/ssl/CA/serial" sudo touch /etc/ssl/CA/index.txt
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The third file is a CA configuration file. Though not strictly necessary, it is very convenient when issuing multiple certificates. Edit
/etc/ssl/openssl.cnf
, and in the [ CA_default ] change:dir = /etc/ssl/ # Where everything is kept database = $dir/CA/index.txt # database index file. certificate = $dir/certs/cacert.pem # The CA certificate serial = $dir/CA/serial # The current serial number private_key = $dir/private/cakey.pem# The private key
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Next, create the self-singed root certificate:
openssl req -new -x509 -extensions v3_ca -keyout cakey.pem -out cacert.pem -days 3650
You will then be asked to enter the details about the certificate.
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Now install the root certificate and key:
sudo mv cakey.pem /etc/ssl/private/ sudo mv cacert.pem /etc/ssl/certs/
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You are now ready to start signing certificates. The first item needed is a Certificate Signing Request (CSR), see the section called “Generating a Certificate Signing Request (CSR)” for details. Once you have a CSR, enter the following to generate a certificate signed by the CA:
sudo openssl ca -in server.csr -config /etc/ssl/openssl.cnf
After entering the password for the CA key, you will be prompted to sign the certificate, and again to commit the new certificate. You should then see a somewhat large amount of output related to the certificate creation.
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There should now be a new file,
/etc/ssl/newcerts/01.pem
, containing the same output. Copy and paste everything between the -----BEGIN CERTIFICATE----- and ----END CERTIFICATE----- lines to a file named after the hostname of the server where the certificate will be installed. For examplemail.example.com.crt
, is a nice descriptive name.Subsequent certificates will be named
02.pem
,03.pem
, etc.Replace mail.example.com.crt with your own descriptive name.
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Finally, copy the new certificate to the host that needs it, and configure the appropriate applications to use it. The default location to install certificates is
/etc/ssl/certs
. This enables multiple services to use the same certificate without overly complicated file permissions.For applications that can be configured to use a CA certificate, you should also copy the
/etc/ssl/certs/cacert.pem
file to the/etc/ssl/certs/
directory on each server.
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For more detailed instructions on using cryptography see the SSL Certificates HOWTO by tlpd.org
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The PKI Page contains a list of Certificate Authorities.
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The Wikipedia HTTPS page has more information regarding HTTPS.
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For more information on OpenSSL see the OpenSSL Home Page.
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Also, O'Reilly's Network Security with OpenSSL is a good in depth reference.